Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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OFFSET--NOZZLE DROPLET FORMATION
DESCRIPTION
BACKGROUND OF T~IE INVEMTION
1. Field of the Invention
The present invention relates generally to
hydrodynamics of droplet formation and, more
particularly, to a printhead design that enhances
performance of thermal ink-jet pens.
2. Description of the Related Art
The art of thermal ink-jet (TIJ) printhead
fabrication is relatively well developed. The basics
are disclosed, for example, in some detail in the
Hewlett-Packard Journal, Vol. 36, No. 5, May 1985.
In the field of TIJ printing, it is known to
provide a printhead having an orifice plate in
combination with heating elements such that thermal
excitation of ink is used to eject droplets through tiny
nozzles onto a print media. The orifice plate
configuration is one of the design factors that controls
droplet size, velocity and trajectory.
In the prior art, it is known to align
printhead orifice plate nozzles with underlying heating
elements as shown in FIGURES 1 and 2. Heat from an
element 2 causes a vapor bubble to grow rapidly in an
ink channel 4 and gi~es momentum to the ink above the
bubble. The ink in turn is propelled through a nozzle 6
in an orifice plate 8 and onto the print media.
One of the problems associated with TIJ
printing is obtaining repeatability of the ejected ink
droplet size. In general, a droplet volume will have a
deviation of about four to eight percent in such a
design arrangement as shown in the FIGURES.
Hence, there is a need to improve
repeatability of ink droplet volume in order to improve
print quality and uniformity.
SUMMARY OF THE INVENTION
It is an advantage of an aspect of the present
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invention that improves volume repeatability of ink
droplets ejected by a TIJ printhead nozzle.
An advantage of an aspect of the invention is
that it reduces droplet tail spray.
An advantage of an aspect of the invention is
that it improves print area fill and, thus, the printed
text quality.
An advantage of an aspect of said invention is that
in ink-jet technology it significantly improves the
~uality of pens by reducing ink droplet volume
variations of individual nozzles, across pens, and
between pens.
Various aspects of the invention are as
follows:
A device for ejecting fluid in droplet form,
having a substrate, heating means on said substrate for
thermally exciting said fluid, and ejecting means
superposing said substrate for ejecting said fluid in
droplet form, comprising:
said ejecting means having an aperture being
offset from said heating means perpendicularly to the
direction of flow of said fluid across said heating
means.
An improved ink jet printhead, having a
substrate, orifice means superposing said substrate for
ejecting ink, channelling means on said substrate for
channelling ink to said orifice means, and at least one
heating means on said substrate in said channelling
means, characterized by:
nozzle means, in said orifice means, for
ejecting ink droplets, having a center point which is
offset from said heating means center point.
An ink jet printhead, comprising:
a substrate,
channeling means for channeling ink across at
least one predetermined area of said substrate,
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at least one heating means, on said predetermined
are of said substrate, for thermally exciting ink in
said channel,
orifice means, superposing said channelling means,
for ejecting droplets of said ink from said printhead,
and
at least one nozzle in said orifice means having a
geometric centerpoint which is off~et from the geometric
centerpoint of said heating means perpendicularly to the
flow of said channelled ink across said area.
An improved ink jet printhead, having a ~ubstrate,
orifice means superposing said substrate for ejecting
ink, channelling means on said substrate for channelling
ink to said orifice means, and at least one heating
means on said substrate in said channelling means,
characterized by:
nozzle means, in said orifice means, for ejecting
ink droplets, having a center point which is o~fset from
said heating means center point, said offset being in a
direction substantially perpendicular to the flow of ink
in said channelling means.
Other objects, features and advantages of the
present invention will become apparent upon
consideration of the following detailed description and
the accompan~ing drawings, in which like reference
designations represent like features throughout the
FIGURES.
BRIEF DESCRIPTION OF THE_DRA_WINGS
FIGURE 1 is a schematic plan view showing a prior
art fluid channel, heating element, and nozzle
configuration for a printhead.
FIGURE 2 is a schematic drawing taken in plane A-A
of FIGURE 1.
FIGURE 3 is a schematic plan view showing a fluid
channel, heating element, and nozzle configuration for a
printhead in accordance with the present invention.
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FIGURE 4 is a schematic drawing taken in plane B-B
of FIGURE 3.
The drawings referred to in this description should
be understood as not being drawn to scale except if
specifically noted.
DETAILED DESCRIPTION OF THE INVENTION
Reference is made now in detail to a specific
embodiment of the present invention, which illustrates
the best mode presently contemplated by the inventor for
practicing the invention. Alternative embodiments are
also briefly described as applicable. Referring now to
FIGURES 3 and 4, a substrate 10 forms the base member
for a TIJ printhead. In the state of the art, it is
known to fabricate printhead structures usiny techniques
common to the fabrication of thin film and semiconductor
devices, such as integrated circuits. As such, a
detailed description of those processes is not essential
to an understanding of the present invention.
Superposing the substrate 10, a barrier layer 12 is
formed to include feed channels 4 to direct ink flow
from a connected reservoir (not shown). In the
channel(s) 4, generally centrally located, are heating
elements 2. Thin film resistors are known to provide
adequate thermal energy to stimulate various printing
inks. It is known in the state of the art of thin film
technology to fabricate thin film structures for TIJ
printheads which include resistors, interconnections and
passivation layers. An orifice plate 8 overlays the
barrier layer 12.
As best shown in FIGURE 3 (showing x and y
reference coordinates), in the present invention, an
aperture or nozzle 6 has a centerpoint 14 which has been
offset from the y
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As best shown in FIGURE 3 (showing x and y reference coordinates), in the present
invention, an aperature or nozzle 6 has a centerpoint 14 which has been offset from the y
centerpoint 16 of the heating element ~ in the y direction by a dimension labelled z, i.e.
in the direction of one of the side walls 18 of the channel 4. Generally, ~his is
S perpendicular to the flow of ink in the channel 4.
As will be recognized by a person skilled in the art. A TIJ printhead will have
a noz~le plate 8 having a plurality of nozzles 6 with correspondin~ heating elements. The
quantity and complexity of the arrangement will be dependent upon the functions required of
the particular printer or plotter in which the printhead is to be utilized. The
10 intentional misalignment of the orifice plate 8 perpendicularly to the ink feed channel 4
in a controlled manner has been found to improve repeatability of ejected droplet volume.
An overall droplet volume deviation appears to decrease by a factor of three or four by
providing a misalignment oî the orifice nozzle 6 with the heating element 2.
Exact dimensionin~, is obviously dependent on the individual design of the
15 printhead. In an exemplary embodirnent, where the feed channel 4 has a dimension y = 85
microns, heating element 2 has a dimension y = 64 microns, barrier layer 12 has a height of
55 microns, and orifice plate 8 has a height of 62.5 microns with a nozzte diameter of 43
microns and a convex inner surface radial diameter of 62.5 micron, an approximately 25
micron offset z of the nozzle centerpoint 14 from the heating element centerpoint 16 yields
20 optimum performance. The effect is noticed, however, when the no~zle is rnisaligned by
about ten microns or more. From experimental data from which this example is provided, it
would appear that performance appears to degenerate once the nozzle centerpoint 14 passes
edge 20 of the heating element 2.
The foregoing description of the preferred embodiment of the present invention
25 has been presented for purposes of illustration and description. It is not intended to be
exhaustive or to limit the invention to the precise form disclosed. Obviously, many
modifications and variations will be apparent to practitioners skilled in this art. The
embodiment was chosen and described in order to best explain the principles of the
invention and it~ practical application to thereby enable others skilled in the art to
30 understand the i~ivention for various embodiments and with various modifications as are
suited to the particular use contemplated. It is intended that the scope of the invention
be defined by the clair~s appended hereto and their equivalents.
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